Magnetic goggle lens changing system

ABSTRACT

A goggle lens is configured for use with a goggle frame having a frame body and a pair of frame engagement members positioned at respective lateral end portions of the frame body. The goggle lens includes a lens rim, and a lens element that is transparent to allow a user to view through the lens element. A pair of lens engagement members are coupled to respective lateral end portions of the lens rim. The pair of lens engagement members are selectively engageable with respective ones of the pair of frame engagement members. The pair of lens engagement members include a locking lens engagement member comprising a first element coupled to the lens rim, and a second element moveably coupled to the first element for facilitating selective engagement and disengagement with the respective one of the pair of frame engagement members.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application relates to and claims the benefit of U.S. ProvisionalApplication No. 62/955,979 filed Dec. 31, 2019 and entitled “MAGNETICGOGGLE LENS CHANGING SYSTEM,” the entire contents of which is herebywholly incorporated by reference.

STATEMENT RE: FEDERALLY SPONSORED RESEARCH/DEVELOPMENT

Not Applicable

BACKGROUND 1. Technical Field

The present disclosure relates generally to a goggle, and moreparticularly, the present disclosure relates to a goggle having a gogglelens sized and configured to be detachably connectable to a goggle framein an easy and rapid fashion.

2. Description of the Related Art

In order to protect one's eyes during many sports or outdoor activitiessuch as snowboarding, skiing, skydiving, paragliding, and so on, aperson may wear goggles. Typically, goggles are constructed of a frame,lenses which are fixedly mounted on the forward face of the frame,padding for comfort and absorbing sweat which is attached to the rearface of the frame, and a band for fixing the goggles to a user's head.The goggles may be positioned over the user's eyes, such that the userlooks through the lens, with the band extending around the user's head.

While generally all goggles share this basic design, it has been foundthat the experience of wearing goggles during certain sports or outdooractivities may be enhanced by wearing specialized or preferred lensesfor that sport or activity. For example, variation in the colors oflenses may affect a wearer's perception of the brightness and contrastof their environment, as well as a wearer's depth perception and abilityto perceive certain colors. Furthermore, the lens may be colored or haveother attributes which enhance the overall aesthetic appeal of thegoggle.

Lenses which are fixed to the goggle frame may limit the overall use ofthe goggle. For instance, the functional attributes of a given lens maybe adapted for use in certain environmental conditions. For instance,darkly tinted lenses may be useful in very bright conditions, but notuseful in darker conditions. Conversely, lightly tinted lenses may beuseful in darker conditions, and not as useful in lighter conditions.Furthermore, the aesthetic attributes of a given lens may fall out offavor with a user as that user's aesthetic appeal changes. Additionally,during certain sports or outdoor activities, it is common that thelenses on a pair of goggles may become damaged, such as by becomingcracked, scratched, or crazed.

Thus, a wearer who owns a pair of conventional goggles with integratedlenses, but desires to wear different lenses on their goggles, or toreplace damaged lenses on their goggles, may be required to purchase andadjust to an entirely new pair of goggles, or take the goggles to themanufacturer or a specialist for replacement of lenses.

Accordingly, there is a need in the art for a goggle lens which canaccommodate quick and easy engagement with a corresponding goggle frame.Various aspects of the present disclosure address this particular need,as will be discussed in more detail below.

BRIEF SUMMARY

Various aspects of the present disclosure are directed toward a gogglefor use in snow sports (e.g., snowboarding, snow skiing, etc.), whichmay include detachable lens. The lens may be detachably connected to agoggle frame via a magnetic connection, as well as through a mechanicalslide lock mechanism. The magnetic connection may allow the lens to beeasily registered or aligned relative to the goggle frame, while theslide lock mechanism may provide a more secure attachment between thegoggle frame and the lens. The combination of the magnetic attachmentand mechanical attachment may allow for attachment or detachment of thelens relative to the goggle frame while a user is wearing gloves, as isoften the case when participating in snow sports.

In accordance with one embodiment of the present disclosure, there isprovided a goggle comprising a goggle frame extending around a goggleframe opening. At least one magnetically attractable frame connectorcoupled to the goggle frame. A lens is positionable adjacent the goggleframe, with the lens being sized and configured to extend over thegoggle frame opening when the lens is positioned adjacent the goggleframe opening. At least one magnetically attractable lens connector iscoupled to the lens and magnetically connectable to the at least oneframe connector to magnetically connect the lens to the goggle frame. Apair of attachment bodies are connected to the lens. A pair of lockingtabs are slidably connected to the goggle frame, with each locking tabbeing transitional between an unlocked position and a locked positionand engaging a respective one of the pair of attachment bodies when thelocking tab is moved from the unlocked position to the locked position.

The lens connector may be a magnet. The lens connector may be a metallicmaterial. The frame connector may be a magnet. The frame connector maybe a metallic material.

The frame may include a pair of channels, with each locking tab beingtranslatable within a respective one of the pair channels. Each lockingtab may include a finger gripping body and a locking body, with thefinger gripping body extending outside of the goggle frame opening, andthe locking body extending within the goggle frame opening. Each lockingbody may include a U-shaped recess. Each attachment body may include aramp at least partially defining an attachment body channel, and eachattachment body may be received in the U-shaped recess of a respectiveone of the pair of locking tabs. Each locking tab may be received in theattachment body channel when the lens connector is magnetically coupledto the goggle frame connector and the locking tab is moved to the lockedposition.

Each attachment body may include a shaft and a head, with the shaftbeing positioned between the head and the lens. Each shaft may include afirst edge extending from the head and a second edge extending from thefirst edge, with the first and second edges defining an angle greaterthan 90 degrees.

The lens may include a convex outer surface and an opposing concaveinner surface. Each attachment body may extend away from the concaveinner surface.

According to another embodiment, there is provided a lens assembly foruse with a goggle frame defining a goggle frame opening and having atleast one magnetically attractable frame connector coupled to the goggleframe and a pair of locking tabs slidably connected to the goggle frame.The lens assembly includes a lens positionable adjacent the goggleframe. The lens is sized and configured to extend over the goggle frameopening when the lens is positioned adjacent the goggle frame opening.The lens assembly additionally includes at least one magneticallyattractable lens connector coupled to the lens and magneticallyconnectable to the at least one frame connector to magnetically connectthe lens to the goggle frame. A pair of attachment bodies are connectedto the lens. Each attachment body is engageable with a respective one ofthe locking tabs for mechanically connecting the lens to the frame.

According to another embodiment, there is provided a goggle frameassembly for use with a lens, at least one magnetically attractable lensconnector coupled to the lens, and a pair of attachment bodies connectedto the lens. The goggle frame assembly includes a goggle frame extendingaround a goggle frame opening sized to be complementary to the lens. Atleast one magnetically attractable frame connector is coupled to thegoggle frame and is magnetically connectable to the at least onemagnetically attractable lens connector. A pair of locking tabs areslidably connected to the goggle frame. Each locking tab is transitionalbetween an unlocked position and a locked position and engages arespective one of the pair of attachment bodies when the lens ispositioned adjacent the goggle frame and the locking tab is moved fromthe unlocked position to the locked position.

The present disclosure will be best understood by reference to thefollowing detailed description when read in conjunction with theaccompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other features and advantages of the various embodimentsdisclosed herein will be better understood with respect to the followingdescription and drawings, in which:

FIG. 1 is an upper perspective view of a goggle having a lens detachedfrom a goggle frame;

FIG. 2 is an upper perspective view of the goggle frame and lensassembly

FIG. 3 is an upper perspective view of a locking tab used for connectingthe lens to the goggle frame;

FIG. 4 is a top view of the locking tab;

FIG. 5 is a front view of the locking tab;

FIG. 6 is an end view of the locking tab

FIG. 7 is a top view of an attachment body coupled to the lens andconfigured to be engageable with the locking tab; and

FIGS. 8-10 are upper perspective views depicting a sequence of attachingthe lens to the goggle frame.

Common reference numerals are used throughout the drawings and thedetailed description to indicate the same elements.

DETAILED DESCRIPTION

The detailed description set forth below in connection with the appendeddrawings is intended as a description of certain embodiments of amagnetic goggle lens assembly and is not intended to represent the onlyforms that may be developed or utilized. The description sets forth thevarious structure and/or functions in connection with the illustratedembodiments, but it is to be understood, however, that the same orequivalent structure and/or functions may be accomplished by differentembodiments that are also intended to be encompassed within the scope ofthe present disclosure. It is further understood that the use ofrelational terms such as first and second, and the like are used solelyto distinguish one entity from another without necessarily requiring orimplying any actual such relationship or order between such entities.

Referring now to the drawings, wherein the showings are for purposes ofillustrating a preferred embodiment of the present disclosure, and arenot for purposes of limiting the same, there is depicted a goggle 10having a goggle lens assembly 12 specifically configured and adapted tobe detachably engageable with a goggle frame assembly 14. The gogglelens assembly 12 may be engageable with the goggle frame assembly 14 viamagnetic attraction as well as mechanical interconnection. The magneticattraction may register or align the lens assembly 12 relative to thegoggle frame assembly 14, while also providing an audible and tactilefeel to the user when the lens assembly 12 becomes magnetically engagedto the goggle frame assembly 14. The mechanical interconnection mayprovide for a more secure attachment between the lens assembly 12 andthe goggle frame assembly 14. Furthermore, the configuration of the lensassembly 12 and the goggle frame assembly 14 may allow for attachment ordetachment of the lens assembly 12 relative to the goggle frame assembly14 while the user is wearing gloves, as may often be the case during useof the goggle 10 while participating in snow sports.

The ability to quickly and easily detach the goggle lens assembly 12from the goggle frame assembly 14 allows a user to utilize a goggle lensassembly 12 that is suitable for the expected environmental conditions.For instance, a dark goggle lens may be used in bright conditions, andalternatively, a lightly tinted lens may be used in dark lightingconditions. Furthermore, one goggle lens assembly 12 may be interchangedwith another goggle lens assembly 12 to give the overall goggle 10 adifferent appearance or look. As such, interchangeable goggle lensesenhance the overall commercial appeal of the goggle assembly 10.Furthermore, interchangeable lenses allow a user to replace a brokenlens assembly 12 with a new lens assembly 12, and thus, the user is notrequired to purchase an entirely new goggle 10.

According to one embodiment, the goggle frame assembly 14 includes amain body 16 which circumnavigates a central frame opening 18 anddefines a curvature which allows the goggle frame assembly 14 tocomfortably fit on a user's face. The main body 16 may include an upperportion 20 extending between a pair of lateral portions 22, and a lowerportion 24 having a centrally located bridge section 26 adapted toextend over a user's nose. At least a portion of the main body 16 may beformed from a flexible material to enhance the fit and comfort of thegoggle 10 when worn by the wearer. Exemplary flexible materials includeplastic (e.g., polyurethane), rubber, or other materials known in theart.

According to one embodiment, the main body 16 includes a pair ofchannels 28 formed therein, which accommodate a corresponding pair oflocking tabs 30 slidably connected to the main body 16 via the channels28. Each channel 28 may be located in a respective lateral portion 22.According to one embodiment, each lateral portion 22 includes a pair ofplates 32 that are connected to each other and which collectively definethe channel 28. Each pair of plates 32 may include projections,contours, recesses, etc., which may interface with the locking tabs 30and may be associated with various positions of the locking tab 30relative to the main body 16. For instance, the positions of the lockingtab 30 may include an unlocked position, a locked position, and anintermediate position, as will be described in more detail below.

The main body 16 may further include a pair of engagement slots 34formed in the main body 16 and in communication with respective channels28. The engagement slots 34 are configured to receive attachment bodiesincluded on the lens assembly 12 for securing the lens assembly 12 tothe goggle frame assembly 14, as will be described in more detail below.Each engagement slot 34 extends from a forward surface of the main body16 and into the main body 16 toward the respective channel. In oneembodiment, the engagement slot 34 may extend generally perpendicularlyto the corresponding channel.

As noted above, the goggle frame assembly 14 may include a pair oflocking tabs 30 coupled to the main body 16. Each locking tab 30 may betranslatable within a respective channel 28 between an unlocked positionand a locked position. In the unlocked position, the locking tab 30 ispositioned to allow the lens assembly 12 to be attached or removed fromthe main body 16. In this regard, when the locking tab 30 is in theunlocked position, the locking tab 30 does not inhibit mechanicalattachment or detachment of the lens assembly 12 relative to the goggleframe assembly 14. In the locked position, the locking tab 30 ispositioned to engage with a portion of the lens assembly 12 to securethe lens assembly 12 to the main body 16, as will be described in moredetail below.

According to one embodiment, each locking tab 30 includes a fingergripping body 36 and a locking body 38. The finger gripping body 36 isconfigured to extend outside of the central frame opening 18 and issized to provide a structure which a user may apply a force with afinger. In this regard, the finger gripping body 36 may include a seriesof ridges 40 to enhance engagement with the user's finger. Given thatvarious embodiments of the goggle 10 may be used when participating insnow sports or other activities where a user may be wearing a glove, thefinger gripping body 36 may be particularly sized and configured toallow a user to engage with the finger gripping body 36 while wearing aglove and transition the finger gripping body 36 between the unlockedand locking positions.

Each locking tab 30 may additionally include a locking body 38 extendingwithin a respective channel in the main body 16. In this regard, whilethe finger gripping body 36 is configured to be exposed on the outsideof the main body 16, the locking tab 30 may be generally concealed byresiding in the channel 28. Each locking body 38 may include a U-shapedrecess 42 which engages a portion of the lens assembly 12 when the lensassembly 12 is engaged with the goggle frame assembly 14. The lockingbody 38 may additionally include one or more projections 44 which mayinterface with structural elements on the main body 16 to providefrictional stops as the locking tab 30 moves relative to the main body16.

The goggle 10 may additionally include at least one magneticallyattractable frame connector 46 coupled to the main body 16. In theexemplary embodiment, the goggle 10 includes a pair of frame connectors46, with one frame connector 46 being coupled to the main body 16 acentral region of the upper portion 20, and another frame connector 46may be coupled to a middle region of the bridge section 26. The frameconnectors 46 may be aligned along a generally central axis. It iscontemplated that additional frame connectors 46 may be coupled to themain body 16 at other locations thereof. The frame connector 46 may be amagnet, or alternatively, the frame connector 46 may be formed from anon-magnetic metallic material that is magnetically attractable to amagnet.

The goggle frame assembly 14 may additionally include a compressibleliner 48 may extend over an inner surface of the main body 16 (i.e.,that portion of the main body 16 facing the user during use) and may bepositioned to interface with the user when the goggle 10 is worn. Thecompressible liner 48 may be formed from foam or other materials knownin the art, and may be sized and positioned to form a barrier betweenthe main body 16 and the user to prevent precipitation, ice, mud, orother debris from entering the space between the goggle 10 and the user.An elastic strap 50 may be connected to the main body 16 at the lateralportions 22 thereof, with the strap 50 being adapted to extend aroundthe user's head for securing the goggle 10 to the user.

Referring now to FIG. 2, the goggle lens assembly 12 generally includesan outer lens 52, an outer adhesive 54, a lens frame 56, an inneradhesive 58, and an inner lens 60. According to one embodiment, the lensframe 56 defines a lens opening 62, with the lens frame 56circumnavigating the lens opening 62. The lens opening 62 issubstantially similar in size and shape to the central frame opening 18defined by the main body 16, such that when the goggle lens 12 isattached to the main body 16, the lens opening 62 is aligned with thecentral frame opening 18 to allow the user to look through the goggle10. The lens frame 56 includes an upper portion 64, a pair of lateralportions 66, and a lower portion 68 having a bridge section shaped toextend over a user's nose during use. The lens frame 56 provides astructure upon which the outer lens 52 and inner lens 60 may be secured.

The outer adhesive 54 is used to secure the outer lens 52 to the lensframe 56, and inner adhesive 58 is used to secure the inner lens 60 tothe lens frame 56. According to one embodiment, the outer lens 52 andinner lens 60 are coupled to opposing surfaces of the lens frame 56.Both the outer lens 52 and inner lens 60 may be transparent bodiesadapted to allow the user to view therethrough. As used herein, the term“transparent” simply refers to the ability of a user to at leastpartially look through the lens 52, 60. In this regard, it is understoodthat although the outer lens 52 and inner lens 60 are transparent, oneor both of the outer lens 52 and the inner lens 60 may have tint,polarization, film, or other aesthetic enhancements (e.g., color,reflectance, etc.) or functional enhancements (e.g., reducing glare)made thereto. The tint, polarization, or color enhancements may befunctional in nature, such as reducing glare or brightness, or may beintended to enhance the overall aesthetic appeal of the goggle 10. Theouter lens 52 and inner lens 60 may be formed of polycarbonate, TRIVEX,or other lens materials known in the art.

Although the exemplary embodiment shows the goggle lens 12 as having theouter lens 52 and the separate inner lens 60, it is understood thatother embodiments may only include a single lens, such as the outer lens52.

The goggle lens assembly 12 may additionally include one or moremagnetic lens connectors 70 and one or more attachment bodies 72 tofacilitate magnetic and mechanical connection to the main body 16. Theexemplary lens assembly 12 includes a pair of magnetic lens connectors70 coupled thereto. The magnetic lens connectors 70 are sized andconfigured to magnetically connect with the magnetic frame connectors 46located on the main body 16. In this regard, one magnetic lens connector70 being attached to a top portion of the lens frame 56 and may bemagnetically connectable to the magnetic frame connector 46 located onthe top of the main body 16. Another magnetic lens connector 70 may beattached to a bridge portion of the lens frame 56 and may bemagnetically connectable to the magnetic frame connector 46 located onthe bridge portion of the main body 16. The lens connectors 70 may bealigned along a generally central axis. It is contemplated thatadditional lens connectors 70 may be coupled to the lens frame 56 atother locations thereof. The lens connector 70 may be a magnet, oralternatively, the lens connector 70 may be formed from a non-magneticmetallic material that is magnetically attractable to a magnet. In thisregard, in one embodiment, both the lens connector 70 and the frameconnector 46 may be magnets, while in another embodiment, the lensconnector 70 is a magnet, while the frame connector 46 is not a magnet,and is simply a metallic material that is magnetically attractable tothe lens connector. In yet another embodiment, the frame connector 46 isa magnet, while the lens connector 70 is not a magnet, and is simply ametallic material that is magnetically attractable to the frameconnector.

The exemplary lens assembly 12 further includes a pair of attachmentbodies 72 coupled to the lens frame 56. Each attachment body 72 mayinclude a shaft 74 and a head 76, with the shaft 74 being positionedbetween the head 76 and the inner lens 60. As is apparent from FIG. 7,the head 76 may be in a distal position relative to the shaft 74, andthus, may be referred to as a distal head. Furthermore, the head 76 maybe enlarged relative to at least a portion of the shaft 74. Each shaft74 may include a first edge 78 extending from the head 76 and a secondedge 80 extending from the first edge 78, with the first and secondedges 78, 80 defining an angle greater than 90 degrees.

Each attachment body 72 may include a ramp defined by the second edge 78at least partially defining an attachment body channel 82, and eachattachment body 72 may be received in the U-shaped recess 42 of arespective one of the pair of locking tabs 30. Each locking tab 30 maybe received in the attachment body channel 82 when the lens connector 70is magnetically coupled to the goggle frame connector 46 and the lockingtab 30 is moved to the locked position.

With the basic structural features of the goggle 10 described above, andwith reference specifically to FIGS. 8-10, a discussion of an exemplaryuse of the goggle 10 will now be provided. A user may have severalgoggle lenses 12 available for use with a goggle frame assembly 14. Whena user selects a particular goggle lens 12, the user aligns the gogglelens 12 with the goggle frame assembly 14 and ensures the locking tabs30 on the frame assembly 14 are in their respective unlocked positions.In particular, the goggle lens 12 is positioned with the inner lens 60facing toward the goggle frame assembly 14, and the outer lens 52 facingaway from the goggle frame assembly 14. Furthermore, the magnetic lensconnectors 70 are aligned with the corresponding magnetic frameconnectors, and the lens attachment bodies 72 are aligned withrespective engagement slots 34 on the main body 16.

The lens assembly 12 is moved closer to the main body 16 until themagnetic attraction between the magnetic lens connectors 70 and themagnetic frame connectors 46 is sufficient to independently couple thelens assembly 12 to the frame assembly 14. In this regard, the magneticattraction between the magnetic lens connectors 70 and magnetic frameconnectors 46 may allow the lens assembly 12 to be properly aligned andregistered relative to the frame assembly 14, with the attachment bodies72 of the lens assembly 12 received within the respective engagementslots 34 on the main body 16.

The locking tabs 30 are then moved from their respective unlockedconfigurations toward their locked configurations. More specifically,each locking tab 30 translates relative to the main body 16, and thelocking body 38 on the locking tab 30 engages the ramp on the attachmentbody 72. As the locking tab 30 continues toward the locked position, thelocking body 38 moves along the ramp until the locking body 38 isreceived in the attachment body channel 82 of the attachment body 72,and the attachment body 72 is received in the U-shaped recess 42 of thelocking body 38. When the locking tabs 30 are in their respective lockedpositions, the lens assembly 12 is securely fastened to the goggle frameassembly 14. In particular, the lens assembly 12 is coupled to thegoggle frame assembly 14 through magnetic attraction via the magneticlens connector 70 and frame connector 46, as well as being connectedthrough mechanical engagement between the locking tabs 30 and theattachment bodies 72.

To release the lens assembly 12 from the main body 16, the locking tabs30 are moved from their locked positions toward their unlocked positionsby translating relative to the main body 16. As the locking tabs 30translate, the locking body 38 is moved out of the attachment bodychannel 82 to disengage the locking body 38 of the locking tab 30 fromthe corresponding attachment body 72. In this regard, the mechanicalinterconnection between the lens assembly 12 and the goggle frameassembly 14 is disconnected. However, the magnetic attraction mayremain. Thus, the user may pull the lens assembly 12 away from the mainbody 16 with sufficient force to overcome the magnetic attractionbetween the lens assembly 12 and the goggle frame assembly 14.

The detachable engagement between the lens assembly 12 and the goggleframe assembly 14 may allow a user to quickly and easily swap one gogglelens 12 for another goggle lens 12. The lenses may be swapped forfunctional reasons, such as to attach a lens having a preferred tint, orreplace a broken lens; or the lenses may be swapped for aestheticreasons. As such, the ability to easily interchange one lens for anotherresults in a highly versatile goggle 10. Furthermore, the use of themagnetic attraction and the mechanical interconnection achieved via thelocking tabs 30 may allow a user to attach or detach the lens assembly12 relative to the main body 16 while the user wears gloves.

The particulars shown herein are by way of example only for purposes ofillustrative discussion, and are not presented in the cause of providingwhat is believed to be most useful and readily understood description ofthe principles and conceptual aspects of the various embodiments of thepresent disclosure. In this regard, no attempt is made to show any moredetail than is necessary for a fundamental understanding of thedifferent features of the various embodiments, the description takenwith the drawings making apparent to those skilled in the art how thesemay be implemented in practice.

What is claimed is:
 1. A goggle comprising: a goggle frame extendingaround a goggle frame opening; at least one magnetically attractableframe connector coupled to the goggle frame; a lens positionableadjacent the goggle frame, the lens being sized and configured to extendover the goggle frame opening when the lens is positioned adjacent thegoggle frame opening; at least one magnetically attractable lensconnector coupled to the lens and magnetically connectable to the atleast one frame connector to magnetically connect the lens to the goggleframe; a pair of attachment bodies connected to the lens; and a pair oflocking tabs slidably connected to the goggle frame, each locking tabbeing transitional between an unlocked position and a locked positionand engaging a respective one of the pair of attachment bodies when thelocking tab is moved from the unlocked position to the locked position;wherein the goggle frame includes a pair of channels, each locking tabbeing translatable within a respective one of the pair channels; andwherein each locking tab includes a finger gripping body and a lockingbody, the finger gripping body extending outside of the goggle frameopening and being configured to translate along an outer surface of thegoggle frame, and the locking body extending within the goggle frameopening.
 2. The goggle recited in claim 1, wherein the lens connector isa magnet.
 3. The goggle recited in claim 1, wherein the lens connectoris a metallic material.
 4. The goggle recited in claim 1, wherein theframe connector is a magnet.
 5. The goggle recited in claim 1, whereinthe frame connector is a metallic material.
 6. The goggle recited inclaim 1, wherein each locking body includes a U-shaped recess.
 7. Thegoggle recited in claim 6, wherein each attachment body includes a rampat least partially defining an attachment body channel, each attachmentbody being received in the U-shaped recess of a respective one of thepair of locking tabs, and each locking tab being received in theattachment body channel when the lens connector is magnetically coupledto the goggle frame connector and the locking tab is moved to the lockedposition.
 8. The goggle recited in claim 1, wherein each attachment bodyincludes a shaft and a head, the shaft being positioned between the headand the lens, each shaft having a first edge extending from the head anda second edge extending from the first edge, the first and second edgesdefining an angle greater than 90 degrees.
 9. The goggle recited inclaim 1, wherein the lens includes a convex outer surface and anopposing concave inner surface, each attachment body extending away fromthe concave inner surface.
 10. A goggle frame assembly for use with alens, at least one magnetically attractable lens connector coupled tothe lens, and a pair of attachment bodies connected to the lens, thegoggle frame assembly comprising: a main body extending around a goggleframe opening sized to be complementary to the lens; at least onemagnetically attractable frame connector coupled to the goggle frame andmagnetically connectable to the at least one magnetically attractablelens connector; and a pair of locking tabs slidably connected to thegoggle frame, each locking tab being transitional between an unlockedposition and a locked position and engaging a respective one of the pairof attachment bodies when the lens is positioned adjacent the goggleframe and the locking tab is moved from the unlocked position to thelocked position; wherein the frame includes a pair of channels, eachlocking tab being translatable within a respective one of the pairchannels; and wherein each locking tab includes a finger gripping bodyand a locking body, the finger gripping body extending outside of thegoggle frame opening, and the locking body extending within the goggleframe opening.